;; large structure tests

(require libc.scm)

(set! (*s7* 'max-vector-length) (ash 1 36))
(set! (*s7* 'max-string-length) (ash 1 36))
(set! (*s7* 'safety) -1)
;; setting heap-size slows us down

(define bold-text (format #f "~C[1m" #\escape))
(define unbold-text (format #f "~C[22m" #\escape))  

(define-macro (test a b)
  (format *stderr* "~S~%" a)
  `(if (not (equal? ,a ,b))
       (format *stderr* "    ~A~S -> ~S?~A~%" bold-text ',a ,a unbold-text)))

(define (clear-and-gc)
  (let ((x 0+i)) (do ((i 0 (+ i 1))) ((= i 256)) (set! x (complex i i)))) ; clear temps
  (gc) (gc))

(define total-memory (with-let *libc* (* (sysconf _SC_PHYS_PAGES) (sysconf _SC_PAGESIZE)))) ; not quite what we want, but...
;; there's no point in overallocating and looking for malloc->null -- malloc doesn't work that way in Linux

(define big-size 2500000000)
(define fft-size (ash 1 17))
(define little-size 1000000)

(unless (defined? 'complex-vector)
  (define complex-vector vector)
  (define* (make-complex-vector len (init 0.0)) (make-vector len init complex?))
  (define complex-vector-ref vector-ref)
  (define complex-vector-set! vector-set!)
  (define complex-vector? vector?)
  (set! *#readers* (cons (cons #\c (lambda (s) (apply vector (read)))) *#readers*)))


;; --------------------------------------------------------------------------------
(format () "complex fft...~%")

(define (complex-fft data n dir)
  (when data
    (do ((i 0 (+ i 1))
	 (j 0))
	((= i n))
      (if (> j i)
	  (let ((temp (complex-vector-ref data j)))
	    (complex-vector-set! data j (complex-vector-ref data i))
	    (complex-vector-set! data i temp)))
      (let ((m (/ n 2)))
	(do () 
	    ((not (<= 2 m j)))
	  (set! j (- j m))
	  (set! m (/ m 2)))
	(set! j (+ j m))))
    (let ((ipow (floor (log n 2)))
	  (prev 1))
      (do ((lg 0 (+ lg 1))
	   (mmax 2 (* mmax 2))
	   (pow (/ n 2) (/ pow 2))
	   (theta (complex 0.0 (* pi dir)) (* theta 0.5)))
	  ((= lg ipow))
	(let ((wpc (exp theta))
	      (wc 1.0)
	      (tc 0.0))
	  (do ((ii 0 (+ ii 1)))
	      ((= ii prev))
	    (do ((jj 0 (+ jj 1))
		 (i ii (+ i mmax))
		 (j (+ ii prev) (+ j mmax)))
		((>= jj pow))
	      (set! tc (* wc (complex-vector-ref data j)))
	      (complex-vector-set! data j (- (complex-vector-ref data i) tc))
	      (complex-vector-set! data i (+ (complex-vector-ref data i) tc)))
	    (set! wc (* wc wpc)))
	  (set! prev mmax))))
    data))

(define (complex-checker fvr)
  (when fvr
    (let ((pk 0.0)
	  (mx 0.0)
	  (mxloc 0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! pk (magnitude (complex-vector-ref fvr i)))
	(when (> pk mx)
	  (set! mx pk)
	  (set! mxloc i)))
      (format () "~A ~A~%" mxloc (/ (* 2 (sqrt mx)) fft-size))
      (format () "~A ~A~%" (magnitude (fvr 4)) (magnitude (fvr (- fft-size 4)))))
    (complex-vector-set! fvr 4 0.0)
    (complex-vector-set! fvr (- fft-size 4) 0.0)
    (let ((mx 0.0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! mx (max mx (magnitude (complex-vector-ref fvr i)))))
      (format () "noise: ~A~%" mx))))

(define (complex-test)
  (let ((fvr (make-vector fft-size 0.0 complex?))
	(scl (/ (* 8.0 pi) fft-size)))
    (do ((i 0 (+ i 1))
	 (x 0.0 (+ x scl)))
	((= i fft-size))
      (complex-vector-set! fvr i (sin x)))
    (complex-fft fvr fft-size 1)
    (complex-checker fvr)
    (complex-fft #f 0 0)
    (complex-checker #f)))
(complex-test)
(clear-and-gc)


;; --------------------------------------------------------------------------------
(format () "ratio fft...~%")

(define (ratio-fft rl im n dir)
  (when rl
    (do ((i 0 (+ i 1))
	 (j 0))
	((= i n))
      (if (> j i)
	  (let ((tempr (vector-ref rl j))
		(tempi (vector-ref im j)))
	    (vector-set! rl j (vector-ref rl i))
	    (vector-set! im j (vector-ref im i))
	    (vector-set! rl i tempr)
	    (vector-set! im i tempi)))
      (let ((m (/ n 2)))
	(do () 
	    ((not (<= 2 m j)))
	  (set! j (- j m))
	  (set! m (/ m 2)))
	(set! j (+ j m))))
    (let ((ipow (floor (log n 2)))
	  (prev 1))
      (do ((lg 0 (+ lg 1))
	   (mmax 2 (* mmax 2))
	   (pow (/ n 2) (/ pow 2))
	   (theta (rationalize (* pi dir)) (* theta 1/2)))
	  ((= lg ipow))
	(let ((wpr (rationalize (cos theta)))
	      (wpi (rationalize (sin theta)))
	      (wr 1)
	      (wi 0))
	  (do ((ii 0 (+ ii 1)))
	      ((= ii prev))
	    (do ((tempr 0)
		 (tempi 0)
		 (jj 0 (+ jj 1))
		 (i ii (+ i mmax))
		 (j (+ ii prev) (+ j mmax)))
		((>= jj pow))
	      (set! tempr (rationalize (- (* wr (vector-ref rl j)) (* wi (vector-ref im j)))))
	      (set! tempi (rationalize (+ (* wr (vector-ref im j)) (* wi (vector-ref rl j)))))
	      (vector-set! rl j (rationalize (- (vector-ref rl i) tempr)))
	      (vector-set! rl i (rationalize (+ (vector-ref rl i) tempr)))
	      (vector-set! im j (rationalize (- (vector-ref im i) tempi)))
	      (vector-set! im i (rationalize (+ (vector-ref im i) tempi))))
	    (let ((wtemp wr))
	      (set! wr (rationalize (- (* wr wpr) (* wi wpi))))
	      (set! wi (rationalize (+ (* wi wpr) (* wtemp wpi))))))
	  (set! prev mmax))))
    rl))

(define (ratio-checker fvr fvi)
  (when fvr
    (let ((vr 0.0)
	  (vi 0.0)
	  (pk 0.0)
	  (mx 0.0)
	  (mxloc 0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! vr (fvr i))
	(set! vi (fvi i))
	(set! pk (+ (* vr vr) (* vi vi)))
	(when (> pk mx)
	  (set! mx pk)
	  (set! mxloc i)))
      (format () "~A ~A~%" mxloc (/ (* 2 (sqrt mx)) fft-size))
      (format () "~A ~A~%" (* 1.0 (fvi 4)) (* 1.0 (fvi (- fft-size 4)))))
    (set! (fvr 4) 0)
    (set! (fvi 4) 0)
    (set! (fvr (- fft-size 4)) 0)
    (set! (fvi (- fft-size 4)) 0)
    (let ((mx 0.0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! mx (max mx (abs (vector-ref fvr i)) (abs (vector-ref fvi i)))))
      (format () "noise: ~A~%" (* 1.0 mx)))))

(define (ratio-test)
  (let ((fvr (make-vector fft-size 0 rational?))
	(fvi (make-vector fft-size 0 rational?))
	(scl (/ (* 8.0 pi) fft-size)))
    (do ((i 0 (+ i 1))
	 (x 0.0 (+ x scl)))
	((= i fft-size))
      (vector-set! fvr i (rationalize (sin x))))
    (ratio-fft fvr fvi fft-size 1)
    (ratio-checker fvr fvi)
    (ratio-fft #f #f fft-size 1)
    (ratio-checker #f #f)))

(ratio-test)
(clear-and-gc)


;; --------------------------------------------------------------------------------
(format () "strings...~%")

(when (> total-memory (* 4 big-size))
  (clear-and-gc)
  (let ((bigstr (make-string big-size)))
    (define (big-string-filler)
      ;(fill! bigstr #\null 0 big-size))
      (do ((i 0 (+ i 1)))
	  ((= i big-size))
	(string-set! bigstr i #\null)))
    (test (length bigstr) big-size)
    (string-set! bigstr (- big-size 10000000) #\a)
    (test (string-ref bigstr (- big-size 10000000)) #\a)
    (set! bigstr (reverse! bigstr))
    (test (string-ref bigstr (- 10000000 1)) #\a)
    (fill! bigstr #\b)
    (test (string-ref bigstr (- big-size 10000000)) #\b)
    (test (char-position #\a bigstr) #f)
    (do ((i (- (ash 1 31) 10) (+ i 1)))
	((= i (+ (ash 1 31) 10)))
      (string-set! bigstr i #\c))
    (test (string-ref bigstr (ash 1 31)) #\c)
    (do ((i (- (ash 1 31) 10) (+ i 1)))
	((= i (+ (ash 1 31) 10)))
      (set! (bigstr i) #\d))
    (test (bigstr (ash 1 31)) #\d)
    (let-temporarily (((*s7* 'print-length) 100))
      (let ((big1 (copy bigstr)))
	(test (equal? big1 bigstr) #t)
	(test (string=? big1 bigstr) #t)
	(test (string>? big1 bigstr) #f)
					;(test (string-ci<=? big1 bigstr) #t)
	(test (equivalent? big1 bigstr) #t)
	(set! (big1 (- big-size 1)) #\f)
	(test (equal? big1 bigstr) #f)
	(test (string=? big1 bigstr) #f)
	(test (equivalent? big1 bigstr) #f)
	(let ((big2 (substring big1 (- (ash 1 31) 10) (+ (ash 1 31) 10))))
	  (test big2 "dddddddddddddddddddd")
	  (test (length big2) 20)
	  (let ((big3 (make-string 20)))
	    (copy bigstr big3 (- (ash 1 31) 10) (+ (ash 1 31) 10))
	    (test (string=? big2 big3) #t)))))
    (let ((p (call-with-output-string 
	      (lambda (p)
		(write-string bigstr p (- (ash 1 31) 10) (+ (ash 1 31) 10))))))
      (test (length p) 20)
      (test p "dddddddddddddddddddd"))
    (big-string-filler)
    ; -- why the do loop? (fill! bigstr #\null 0 big-size)
    (let ((bv (string->byte-vector bigstr)))
      (test (byte-vector? bv) #t)
      (test (length bv) (length bigstr))
      (let ((bvi (byte-vector-ref bv (- (ash 1 31) 100))))
      (test bvi (char->integer (string-ref (byte-vector->string bv) (- (ash 1 31) 100)))))))
  
  (clear-and-gc)
  (let ((size little-size))
    (let ((vs (make-vector size)))
      (let ((strs (make-vector 256)))
	(do ((i 0 (+ i 1)))
	    ((= i 256))
	  (vector-set! strs i (make-string 200 (integer->char i))))
	(define (string-sorter)
	  (do ((i 0 (+ i 1)))
	      ((= i size))
	    (vector-set! vs i (copy (vector-ref strs (logand i #xff)) (make-string (+ 1 (random 200)))))))
	(string-sorter)
	(set! strs #f))
      (sort! vs string<?)
      (define (string-checker)
	(do ((i 1 (+ i 1))
	     (j 0 (+ j 1)))
	    ((= i size))
	  (if (string>? (vector-ref vs j) (vector-ref vs i))
	      (display "oops"))))
      (string-checker)
      (fill! vs #f)))
  
  (clear-and-gc)
  (let ((size little-size))
    (let ((str (make-string size)))
      (define (string-filler)
	(do ((i 0 (+ i 1)))
	    ((= i size))
	  (string-set! str i #\a)))
      (string-filler)
      (let ((str1 (make-string size)))
	(define (string-writer)
	  (do ((i 0 (+ i 1))
	       (j (integer->char (random 256)) (integer->char (random 256))))
	      ((= i size))
	    (string-set! str i (string-ref (make-string (+ 1 (random 200)) j) 0))
	    (string-set! str1 i j)))
	(string-writer)
	(test (string=? str str1) #t))))
  
  (clear-and-gc)
  (let ((bigstr (make-string (* 2 big-size))))
    (test (length bigstr) (* 2 big-size))
    (string-set! bigstr (- big-size 10000000) #\a)
    (test (string-ref bigstr (- big-size 10000000)) #\a)
    (do ((i (- (ash 1 32) 10) (+ i 1)))
	((= i (+ (ash 1 32) 10)))
      (string-set! bigstr i #\e))
    (test (string-ref bigstr (ash 1 32)) #\e))
  
  (clear-and-gc)
  (let ((rdstr (call-with-input-string (make-string big-size #\null)
		 (lambda (p)
		   (read-string (- big-size 10000000) p)))))
    (test (length rdstr) (- big-size 10000000))
    (test (string-ref rdstr 0) #\null))
  (clear-and-gc)
  (let ((wrtstr (call-with-output-string
		 (lambda (p)
		   (do ((i 0 (+ i 1)))
		       ((>= i 25))
		     (write-string (make-string 100000000 (integer->char (+ 32 i))) p))))))
    (do ((i 0 (+ i 100000000))
	 (j 0 (+ j 1)))
	((>= i big-size))
      (if (not (char=? (string-ref wrtstr i) (integer->char (+ 32 j))))
	  (format () "~D: ~C (~C)~%" i (string-ref wrstr i) (integer->char (+ 32 j)))))))

(when (> total-memory (* 4 big-size))
  (clear-and-gc)
  (let ((bigstr1 (make-string big-size #\+))
	(bigstr2 (make-string big-size #\-)))
    (let ((bigstr3 (append bigstr1 bigstr2)))
      (test (length bigstr3) (* 2 big-size))
      (test (string-ref bigstr3 (- big-size 1)) #\+)
      (test (string-ref bigstr3 (+ big-size 1)) #\-)
      (test (char-position #\- bigstr3) big-size))))
(clear-and-gc)

(let-temporarily (((*s7* 'max-string-length) (+ big-size 1)))
  (let ((x (format #f "~NC" big-size #\a))) 
    (test (length x) big-size)
    (test (string-ref x 1000000) #\a)))

(clear-and-gc)


;; --------------------------------------------------------------------------------
(format () "~%byte-vectors...~%")

(when (> total-memory (* 4 big-size))
  (let ((bigstr (make-byte-vector big-size)))
    (test (length bigstr) big-size)
    (byte-vector-set! bigstr (- big-size 10000000) 65)
    (test (byte-vector-ref bigstr (- big-size 10000000)) 65)
    (set! bigstr (reverse! bigstr))
    (test (byte-vector-ref bigstr (- 10000000 1)) 65)
    (fill! bigstr 66)
    (test (byte-vector-ref bigstr (- big-size 10000000)) 66))
  
  (clear-and-gc)
  (let ((size little-size))
    (let ((vs (make-byte-vector size)))
      (define (byte-vector-sorter)
	(do ((i 0 (+ i 1)))
	    ((= i size))
	  (byte-vector-set! vs i (random 256))))
      (byte-vector-sorter)
      (sort! vs <)
      (define (byte-vector-checker)
 	(let ((vj (byte-vector-ref vs 0)))
 	  (for-each
 	   (lambda (vi)
 	     (if (> vj vi) (display "oops"))
 	     (set! vj vi))
 	   (subvector vs 1 size))))
      (byte-vector-checker)))
  
  (clear-and-gc)
  (let ((size little-size))
    (let ((str (make-byte-vector size)))
      (define (byte-vector-filler)
	(do ((i 0 (+ i 1)))
	    ((= i size))
	  (byte-vector-set! str i 65)))
      (byte-vector-filler)
      (let ((str1 (make-byte-vector size)))
	(define (byte-vector-writer)
	  (do ((i 0 (+ i 1))
	       (j (random 256) (random 256)))
	      ((= i size))
	    (byte-vector-set! str i (byte-vector-ref (make-byte-vector (+ 1 (random 200)) j) 0))
	    (byte-vector-set! str1 i j)))
	(byte-vector-writer)
	(test (equal? str str1) #t)))))


;; --------------------------------------------------------------------------------
(format () "~%float-vectors...~%")

(when (> total-memory (* 18 big-size))
  (format () "test 1~%")
  (clear-and-gc)
  (let ((bigfv (make-float-vector big-size 0.5)))
    (let-temporarily (((*s7* 'print-length) 100))
      (let ((big1 (copy bigfv)))
	(test (equivalent? big1 bigfv) #t)
	(set! (big1 (- big-size 1)) 0.25)
	(test (equivalent? big1 bigfv) #f)
	(let ((big2 (subvector big1 (- (ash 1 31) 10) (+ (ash 1 31) 10))))
	  (test big2 (make-float-vector 20 0.5))
	  (test (length big2) 20)
	  (let ((big3 (make-float-vector 20 0.0)))
	    (copy bigfv big3 (- (ash 1 31) 10) (+ (ash 1 31) 10))
	    (test (equivalent? big2 big3) #t)))))

    (define (big-float-vector-filler)
      (do ((i 0 (+ i 1)))
	  ((= i big-size))
	(float-vector-set! bigfv i 1.0)))

    (big-float-vector-filler)
    (test (bigfv 1) 1.0)))

(when (> total-memory (* 16 little-size))
  (format () "test 2~%")
  (clear-and-gc)
  (let ((size little-size))
    (let ((vs (make-float-vector size)))
      (define (float-vector-sorter)
	(do ((i 0 (+ i 1)))
	    ((= i size))
	  (float-vector-set! vs i (float-vector-ref (make-float-vector (+ 1 (random 200)) (random 100.0)) 0))))
      (float-vector-sorter)
      (sort! vs <)
      (define (float-vector-checker)
 	(let ((vj (float-vector-ref vs 0)))
 	  (for-each
 	   (lambda (vi)
 	     (if (> vj vi) (display "oops"))
 	     (set! vj vi))
 	   (subvector vs 1 size))))
      (float-vector-checker)))
  
  (clear-and-gc)
  (let ((size little-size))
    (let ((str (make-float-vector size)))
      (define (float-vector-filler)
	(do ((i 0 (+ i 1)))
	    ((= i size))
	  (float-vector-set! str i 5.0)))
      (float-vector-filler)
      (let ((str1 (make-float-vector size)))
	(define (float-vector-writer)
	  (do ((i 0 (+ i 1))
	       (j (random 100.0) (random 100.0)))
	      ((= i size))
	    (float-vector-set! str i (float-vector-ref (make-float-vector (+ 1 (random 200)) j) 0))
	    (float-vector-set! str1 i j)))
	(float-vector-writer)
	(test (equivalent? str str1) #t)))))

(when (> total-memory (* 16 big-size))
  (format () "test 3~%")
  (clear-and-gc)
  (let ((bigfv1 (make-float-vector (/ big-size 2) 1.0))
	(bigfv2 (make-float-vector (/ big-size 2) 2.0)))
    (let ((bigfv3 (append bigfv1 bigfv2)))
      (test (length bigfv3) big-size)
      (test (float-vector-ref bigfv3 (- (/ big-size 2) 1)) 1.0)
      (test (float-vector-ref bigfv3 (+ (/ big-size 2) 1)) 2.0))))

(when (> total-memory (* 32 big-size))
  (format () "test 3a~%")
  (clear-and-gc)
  (let ((bigfv1 (make-float-vector (list 2 (/ big-size 2)) 1.0))
	(bigfv2 (make-float-vector (list 2 (/ big-size 2)) 2.0)))
    (test (float-vector-ref bigfv1 0 (- (/ big-size 2) 1)) 1.0)
    (test (float-vector-ref bigfv2 1 (- (/ big-size 2) 1)) 2.0)
    (let ((bigfv3 (append bigfv1 bigfv2)))
      (test (length bigfv3) (* 2 big-size))
      (test (float-vector-ref bigfv3 (- big-size 1)) 1.0)
      (test (float-vector-ref bigfv3 (+ big-size 1)) 2.0))))

(when (> total-memory (* 32 big-size))
  (format () "test 3b~%")
  (clear-and-gc)
  (let ((bigfv1 (make-float-vector (* big-size 2) 1.0))
	(bigfv2 (make-float-vector (* big-size 2) 2.0)))
    (test (float-vector-ref bigfv1 (- (/ big-size 2) 1)) 1.0)
    (test (float-vector-ref bigfv2 (- (/ big-size 2) 1)) 2.0)
    (define (f-loop)
      (do ((i (- (ash 1 32) 10) (+ i 1))
	   (j 0 (+ j 1)))
	  ((= i (+ (ash 1 32) 10)))
	(set! (bigfv1 i) j)
	(set! (bigfv2 i) (* (bigfv1 i) 2))))
    (f-loop)
    (test (subvector bigfv1 (- (ash 1 32) 10) (+ (ash 1 32) 10))
	  (float-vector 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19))
    (test (subvector bigfv2 (- (ash 1 32) 10) (+ (ash 1 32) 10))
	  (float-vector 0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38))
    (test (subvector bigfv1 (+ (ash 1 32) 5) (+ (ash 1 32) 10))
	  (float-vector 15 16 17 18 19))))

(when (> total-memory (* 9 big-size))
  (format () "test 4~%")
  (clear-and-gc)
  (let ((bigfv (make-float-vector big-size)))
    (test (length bigfv) big-size)
    (float-vector-set! bigfv (- big-size 10000000) 1.0)
    (test (float-vector-ref bigfv (- big-size 10000000)) 1.0)
    (reverse! bigfv)
    (test (float-vector-ref bigfv (- 10000000 1)) 1.0)
    (fill! bigfv 0.0)
    (test (bigfv (- big-size 10000000)) 0.0)
    (do ((i (- (ash 1 31) 10) (+ i 1)))
	((= i (+ (ash 1 31) 10)))
      (float-vector-set! bigfv i 2.0))
    (test (float-vector-ref bigfv (ash 1 31)) 2.0)
    (do ((i (- (ash 1 31) 10) (+ i 1)))
	((= i (+ (ash 1 31) 10)))
      (set! (bigfv i) pi))
    (test (equivalent? (bigfv (ash 1 31)) pi) #t)) ; pi might be bignum
  (clear-and-gc))

(define (float-vector-fft rl im n dir)
  (when rl
    (let ((tempr 0.0)
	  (tempi 0.0)
	  (m 0)
	  (j 0)
	  (ipw (floor (log n 2)))
	  (prev 1)
	  (wtemp 0.0)
	  (wpr 0.0)
	  (wpi 0.0)
	  (wr 0.0)
	  (wi 0.0)
	  (mmax 2)
	  (pw (/ n 2))
	  (end 0)
	  (theta (* pi dir)))
      (do ((i 0 (+ i 1)))
	  ((= i n))
	(when (> j i)
	  (set! tempr (float-vector-ref rl j))
	  (set! tempi (float-vector-ref im j))
	  (float-vector-set! rl j (float-vector-ref rl i))
	  (float-vector-set! im j (float-vector-ref im i))
	  (float-vector-set! rl i tempr)
	  (float-vector-set! im i tempi))
	(set! m (quotient n 2))
	(do () 
	    ((not (<= 2 m j)))
	  (set! j (- j m))
	  (set! m (quotient m 2)))
	(set! j (+ j m)))
      
      (do ((lg 0 (+ lg 1)))
	  ((= lg ipw))
	(set! wpr (cos theta))
	(set! wpi (sin theta))
	(set! wr 1.0)
	(set! wi 0.0)
	(do ((ii 0 (+ ii 1)))
	    ((= ii prev))
	  (set! j (+ ii prev))
	  (set! end (+ ii (* pw mmax)))
	  (do ((i ii (+ i mmax)))
	      ((= i end))
	    (set! tempr (- (* wr (float-vector-ref rl j)) (* wi (float-vector-ref im j))))
	    (set! tempi (+ (* wr (float-vector-ref im j)) (* wi (float-vector-ref rl j))))
	    (float-vector-set! rl j (- (float-vector-ref rl i) tempr))
	    (float-vector-set! rl i (+ (float-vector-ref rl i) tempr))
	    (float-vector-set! im j (- (float-vector-ref im i) tempi))
	    (float-vector-set! im i (+ (float-vector-ref im i) tempi))
	    (set! j (+ j mmax)))
	  (set! wtemp wr)
	  (set! wr (- (* wr wpr) (* wi wpi)))
	  (set! wi (+ (* wi wpr) (* wtemp wpi))))
	(set! prev mmax)
	(set! mmax (* mmax 2))
	(set! pw (quotient pw 2))
	(set! theta (* theta 0.5)))
      rl)))

(define (float-vector-checker fvr fvi)
  (when fvr
    (let ((vr 0.0)
	  (vi 0.0)
	  (pk 0.0)
	  (mx 0.0)
	  (mxloc 0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! vr (float-vector-ref fvr i))
	(set! vi (float-vector-ref fvi i))
	(set! pk (+ (* vr vr) (* vi vi)))
	(when (> pk mx)
	  (set! mx pk)
	  (set! mxloc i)))
      (format () "~A ~A~%" mxloc (/ (* 2 (sqrt mx)) fft-size))
      (format () "~A ~A~%" (fvi 4) (fvi (- fft-size 4))))
    (float-vector-set! fvr 4 0.0)
    (float-vector-set! fvi 4 0.0)
    (float-vector-set! fvr (- fft-size 4) 0.0)
    (float-vector-set! fvi (- fft-size 4) 0.0)
    (let ((mx 0.0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! mx (max mx (abs (float-vector-ref fvr i)) (abs (float-vector-ref fvi i)))))
      (format () "noise: ~A~%" mx))))

(define (float-vector-test)
  (let ((fvr (make-float-vector fft-size))
	(fvi (make-float-vector fft-size 0.0))
	(scl (/ (* 8.0 pi) fft-size)))
    (do ((i 0 (+ i 1))
	 (x 0.0 (+ x scl)))
	((= i fft-size))
      (float-vector-set! fvr i (sin x)))
    (float-vector-fft fvr fvi fft-size 1)
    (float-vector-checker fvr fvi)
    (float-vector-fft #f #f fft-size 1)
    (float-vector-checker #f #f)))

(float-vector-test)
(clear-and-gc)

(define (float-2d-fft rl n dir)
  (when rl
    (let ((tempr 0.0)
	  (tempi 0.0)
	  (m 0)
	  (j 0)
	  (ipw (floor (log n 2)))
	  (prev 1)
	  (wtemp 0.0)
	  (wpr 0.0)
	  (wpi 0.0)
	  (wr 0.0)
	  (wi 0.0)
	  (mmax 2)
	  (pw (/ n 2))
	  (end 0)
	  (theta (* pi dir)))
      (do ((i 0 (+ i 1)))
	  ((= i n))
	(when (> j i)
	  (set! tempr (float-vector-ref rl 0 j))
	  (set! tempi (float-vector-ref rl 1 j))
	  (float-vector-set! rl 0 j (float-vector-ref rl 0 i))
	  (float-vector-set! rl 1 j (float-vector-ref rl 1 i))
	  (float-vector-set! rl 0 i tempr)
	  (float-vector-set! rl 1 i tempi))
	(set! m (quotient n 2))
	(do () 
	    ((not (<= 2 m j)))
	  (set! j (- j m))
	  (set! m (quotient m 2)))
	(set! j (+ j m)))
      
      (do ((lg 0 (+ lg 1)))
	  ((= lg ipw))
	(set! wpr (cos theta))
	(set! wpi (sin theta))
	(set! wr 1.0)
	(set! wi 0.0)
	(do ((ii 0 (+ ii 1)))
	    ((= ii prev))
	  (set! j (+ ii prev))
	  (set! end (+ ii (* pw mmax)))
	  (do ((i ii (+ i mmax)))
	      ((= i end))
	    (set! tempr (- (* wr (float-vector-ref rl 0 j)) (* wi (float-vector-ref rl 1 j))))
	    (set! tempi (+ (* wr (float-vector-ref rl 1 j)) (* wi (float-vector-ref rl 0 j))))
	    (float-vector-set! rl 0 j (- (float-vector-ref rl 0 i) tempr))
	    (float-vector-set! rl 0 i (+ (float-vector-ref rl 0 i) tempr))
	    (float-vector-set! rl 1 j (- (float-vector-ref rl 1 i) tempi))
	    (float-vector-set! rl 1 i (+ (float-vector-ref rl 1 i) tempi))
	    (set! j (+ j mmax)))
	  (set! wtemp wr)
	  (set! wr (- (* wr wpr) (* wi wpi)))
	  (set! wi (+ (* wi wpr) (* wtemp wpi))))
	(set! prev mmax)
	(set! mmax (* mmax 2))
	(set! pw (quotient pw 2))
	(set! theta (* theta 0.5)))
      rl)))

(define (float-2d-checker fvr)
  (when fvr
    (let ((vr 0.0)
	  (vi 0.0)
	  (pk 0.0)
	  (mx 0.0)
	  (mxloc 0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! vr (float-vector-ref fvr 0 i))
	(set! vi (float-vector-ref fvr 1 i))
	(set! pk (+ (* vr vr) (* vi vi)))
	(when (> pk mx)
	  (set! mx pk)
	  (set! mxloc i)))
      (format () "~A ~A~%" mxloc (/ (* 2 (sqrt mx)) fft-size))
      (format () "~A ~A~%" (fvr 1 4) (fvr 1 (- fft-size 4))))
    (float-vector-set! fvr 0 4 0.0)
    (float-vector-set! fvr 1 4 0.0)
    (float-vector-set! fvr 0 (- fft-size 4) 0.0)
    (float-vector-set! fvr 1 (- fft-size 4) 0.0)
    (let ((mx 0.0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! mx (max mx (abs (float-vector-ref fvr 0 i)) (abs (float-vector-ref fvr 1 i)))))
      (format () "noise: ~A~%" mx))))

(define (float-2d-test skip)
  (format *stderr* "float-2d ~A~%" skip)
  (let ((fvr (make-float-vector (list skip fft-size) 0.0))
	(scl (/ (* 8.0 pi) fft-size)))
    (do ((i 0 (+ i 1))
	 (x 0.0 (+ x scl)))
	((= i fft-size))
      (float-vector-set! fvr 0 i (sin x)))
    (float-2d-fft fvr fft-size 1)
    (float-2d-checker fvr)
    (float-2d-fft #f fft-size 1)
    (float-2d-checker #f)))

(float-2d-test 2)
(clear-and-gc)
(let-temporarily ((fft-size 32))
  (float-2d-test 2))

;; now try a big float-vector, but same size fft
(when (> total-memory (* 9 (ash 1 31)))
  (float-2d-test (ash 1 14))) ; fft-size (ash 1 17) -> (* 8 (ash 1 31))
(let-temporarily ((fft-size 32))
  (float-2d-test 2))
(clear-and-gc)


;; --------------------------------------------------------------------------------
(format () "~%int-vectors...~%")  

(when (> total-memory (* 18 big-size))
  (format () "test 1~%")
  (clear-and-gc)
  (let ((bigfv (make-int-vector big-size 5)))
    (let-temporarily (((*s7* 'print-length) 100))
      (let ((big1 (copy bigfv)))
	(test (equivalent? big1 bigfv) #t)
	(set! (big1 (- big-size 1)) 25)
	(test (equivalent? big1 bigfv) #f)
	(let ((big2 (subvector big1 (- (ash 1 31) 10) (+ (ash 1 31) 10))))
	  (test big2 (make-int-vector 20 5))
	  (test (length big2) 20)
	  (let ((big3 (make-int-vector 20 0)))
	    (copy bigfv big3 (- (ash 1 31) 10) (+ (ash 1 31) 10))
	    (test (equivalent? big2 big3) #t)))))
    (define (big-int-vector-filler)
      (do ((i 0 (+ i 1)))
	  ((= i big-size))
	(int-vector-set! bigfv i 1)))
    (big-int-vector-filler)
    (test (bigfv 1) 1)))

(when (> total-memory (* 16 little-size))
  (format () "test 2~%")
  (clear-and-gc)
  (let ((size little-size))
    (let ((vs (make-int-vector size)))
      (define (int-vector-sorter)
	(do ((i 0 (+ i 1)))
	    ((= i size))
	  (int-vector-set! vs i (int-vector-ref (make-int-vector (+ 1 (random 200)) (random 100)) 0))))
      (int-vector-sorter)
      (sort! vs <)
      (define (int-vector-checker)
 	(let ((vj (int-vector-ref vs 0)))
 	  (for-each
 	   (lambda (vi)
 	     (if (> vj vi) (display "oops"))
 	     (set! vj vi))
 	   (subvector vs 1 size))))
      (int-vector-checker)))
  (sort! '(1 2 3) <) ; clear temp3...
  (clear-and-gc)
  
  (clear-and-gc)
  (let ((size little-size))
    (let ((str (make-int-vector size)))
      (define (int-vector-filler)
	(do ((i 0 (+ i 1)))
	    ((= i size))
	  (int-vector-set! str i 5)))
      (int-vector-filler)
      (let ((str1 (make-int-vector size)))
	(define (int-vector-writer)
	  (do ((i 0 (+ i 1))
	       (j (random 100) (random 100)))
	      ((= i size))
	    (int-vector-set! str i (int-vector-ref (make-int-vector (+ 1 (random 200)) j) 0))
	    (int-vector-set! str1 i j)))
	(int-vector-writer)
	(test (equivalent? str str1) #t)))))
(clear-and-gc)

(when (> total-memory (* 16 big-size))
  (format () "test 3~%")
  (clear-and-gc)
  (let ((bigfv1 (make-int-vector (/ big-size 2) 1))
	(bigfv2 (make-int-vector (/ big-size 2) 2)))
    (let ((bigfv3 (append bigfv1 bigfv2)))
      (test (length bigfv3) big-size)
      (test (int-vector-ref bigfv3 (- (/ big-size 2) 1)) 1)
      (test (int-vector-ref bigfv3 (+ (/ big-size 2) 1)) 2))))

(when (> total-memory (* 9 big-size))
  (format () "test 4~%")
  (clear-and-gc)
  (let ((bigfv (make-int-vector big-size)))
    (test (length bigfv) big-size)
    (int-vector-set! bigfv (- big-size 10000000) 1)
    (test (int-vector-ref bigfv (- big-size 10000000)) 1)
    (reverse! bigfv)
    (test (int-vector-ref bigfv (- 10000000 1)) 1)
    (fill! bigfv 0)
    (test (bigfv (- big-size 10000000)) 0)
    (do ((i (- (ash 1 31) 10) (+ i 1)))
	((= i (+ (ash 1 31) 10)))
      (int-vector-set! bigfv i 2))
    (test (int-vector-ref bigfv (ash 1 31)) 2)
    (do ((i (- (ash 1 31) 10) (+ i 1)))
	((= i (+ (ash 1 31) 10)))
      (set! (bigfv i) 3))
    (test (bigfv (ash 1 31)) 3))
  (clear-and-gc))


(define (int-vector-fft rl im n dir)
  (when rl
    (let ((tempr 0.0)
	  (tempi 0.0)
	  (tr 0)
	  (ti 0)
	  (m 0)
	  (j 0)
	  (ipw (floor (log n 2)))
	  (prev 1)
	  (wtemp 0.0)
	  (wpr 0.0)
	  (wpi 0.0)
	  (wr 0.0)
	  (wi 0.0)
	  (mmax 2)
	  (pw (/ n 2))
	  (end 0)
	  (theta (* pi dir)))
      (do ((i 0 (+ i 1)))
	  ((= i n))
	(when (> j i)
	  (set! tr (int-vector-ref rl j))
	  (set! ti (int-vector-ref im j))
	  (int-vector-set! rl j (int-vector-ref rl i))
	  (int-vector-set! im j (int-vector-ref im i))
	  (int-vector-set! rl i tr)
	  (int-vector-set! im i ti))
	(set! m (quotient n 2))
	(do () 
	    ((not (<= 2 m j)))
	  (set! j (- j m))
	  (set! m (quotient m 2)))
	(set! j (+ j m)))
      
      (do ((lg 0 (+ lg 1)))
	  ((= lg ipw))
	(set! wpr (cos theta))
	(set! wpi (sin theta))
	(set! wr 1.0)
	(set! wi 0.0)
	(do ((ii 0 (+ ii 1)))
	    ((= ii prev))
	  (set! j (+ ii prev))
	  (set! end (+ ii (* pw mmax)))
	  (do ((i ii (+ i mmax)))
	      ((= i end))
	    (set! tempr (- (* wr (int-vector-ref rl j)) (* wi (int-vector-ref im j))))
	    (set! tempi (+ (* wr (int-vector-ref im j)) (* wi (int-vector-ref rl j))))
	    (int-vector-set! rl j (round (- (int-vector-ref rl i) tempr)))
	    (int-vector-set! rl i (round (+ (int-vector-ref rl i) tempr)))
	    (int-vector-set! im j (round (- (int-vector-ref im i) tempi)))
	    (int-vector-set! im i (round (+ (int-vector-ref im i) tempi)))
	    (set! j (+ j mmax)))
	  (set! wtemp wr)
	  (set! wr (- (* wr wpr) (* wi wpi)))
	  (set! wi (+ (* wi wpr) (* wtemp wpi))))
	(set! prev mmax)
	(set! mmax (* mmax 2))
	(set! pw (quotient pw 2))
	(set! theta (* theta 0.5)))
      rl)))

(define (int-vector-checker fvr fvi)
  (when fvr
    (let ((vr 0)
	  (vi 0)
	  (pk 0)
	  (mx 0)
	  (mxloc 0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! vr (int-vector-ref fvr i))
	(set! vi (int-vector-ref fvi i))
	(set! pk (+ (* vr vr) (* vi vi)))
	(when (> pk mx)
	  (set! mx pk)
	  (set! mxloc i)))
      (format () "~A ~A~%" mxloc (/ (* 2 (sqrt mx)) fft-size))
      (format () "~A ~A~%" (fvi 4) (fvi (- fft-size 4))))
    (int-vector-set! fvr 4 0)
    (int-vector-set! fvi 4 0)
    (int-vector-set! fvr (- fft-size 4) 0)
    (int-vector-set! fvi (- fft-size 4) 0)
    (let ((mx 0.0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! mx (max mx (abs (int-vector-ref fvr i)) (abs (int-vector-ref fvi i)))))
      (format () "noise: ~A~%" mx))))

(define (int-vector-test)
  (let ((fvr (make-int-vector fft-size))
	(fvi (make-int-vector fft-size 0))
	(scl (/ (* 8.0 pi) fft-size)))
    (do ((i 0 (+ i 1))
	 (x 0.0 (+ x scl)))
	((= i fft-size))
      (int-vector-set! fvr i (round (* 1000.0 (sin x)))))
    (int-vector-fft fvr fvi fft-size 1)
    (int-vector-checker fvr fvi)
    (int-vector-fft #f #f fft-size 1)
    (int-vector-checker #f #f)))

(int-vector-test)
(clear-and-gc)


;; --------------------------------------------------------------------------------
(format () "~%vectors...~%")
(when (> total-memory (* 9 big-size))
  (let ((bigv (make-vector big-size 'a symbol?)))
    (test (length bigv) big-size)
    (vector-set! bigv (- big-size 10000000) 'asdf)
    (test (vector-ref bigv (- big-size 10000000)) 'asdf)
    (reverse! bigv)
    (test (vector-ref bigv (- 10000000 1)) 'asdf)
    (fill! bigv 'b)
    (test (vector-ref bigv (- 10000000 1)) 'b)
    ))
(clear-and-gc)

(define (v-loop-test)
  (when (> total-memory (* 20 big-size))
    (let ((v (make-vector big-size ())))
      (do ((i 0 (+ i 1000)))
	  ((= i big-size))
	(vector-set! v i (* 2 i)))
      (test (vector-ref v 100000000) (* 2 100000000))
      (test (vector-ref v (- big-size 10000000)) (* 2 (- big-size 10000000))))))
(v-loop-test)
(clear-and-gc)

(define (vector-fft rl im n dir)
  (when rl
    (let ((m 0)
	  (j 0)
	  (ipw (floor (log n 2)))
	  (prev 1)
	  (wtemp 0.0)
	  (wpr 0.0)
	  (wpi 0.0)
	  (wr 0.0)
	  (wi 0.0)
	  (mmax 2)
	  (pw (/ n 2))
	  (end 0)
	  (theta (* pi dir)))
      (do ((tempr 0.0+i) 
	   (tempi 0.0+i) 
	   (i 0 (+ i 1)))
	  ((= i n))
	(when (> j i)
	  (set! tempr (vector-ref rl j))
	  (set! tempi (vector-ref im j))
	  (vector-set! rl j (vector-ref rl i))
	  (vector-set! im j (vector-ref im i))
	  (vector-set! rl i tempr)
	  (vector-set! im i tempi))
	(set! m (quotient n 2))
	(do () 
	    ((not (<= 2 m j)))
	  (set! j (- j m))
	  (set! m (quotient m 2)))
	(set! j (+ j m)))
      
      (do ((lg 0 (+ lg 1)))
	  ((= lg ipw))
	(set! wpr (cos theta))
	(set! wpi (sin theta))
	(set! wr 1.0)
	(set! wi 0.0)
	(do ((ii 0 (+ ii 1)))
	    ((= ii prev))
	  (set! j (+ ii prev))
	  (set! end (+ ii (* pw mmax)))
	  (do ((tempr 0.0+i)
	       (tempi 0.0+i)
	       (i ii (+ i mmax)))
	      ((= i end))
	    (set! tempr (- (* wr (vector-ref rl j)) (* wi (vector-ref im j))))
	    (set! tempi (+ (* wr (vector-ref im j)) (* wi (vector-ref rl j))))
	    (vector-set! rl j (- (vector-ref rl i) tempr))
	    (vector-set! rl i (+ (vector-ref rl i) tempr))
	    (vector-set! im j (- (vector-ref im i) tempi))
	    (vector-set! im i (+ (vector-ref im i) tempi))
	    (set! j (+ j mmax)))
	  (set! wtemp wr)
	  (set! wr (- (* wr wpr) (* wi wpi)))
	  (set! wi (+ (* wi wpr) (* wtemp wpi))))
	(set! prev mmax)
	(set! mmax (* mmax 2))
	(set! pw (quotient pw 2))
	(set! theta (* theta 0.5)))
      rl)))

(define (vector-checker fvr fvi)
  (when fvr
    (let ((vr 0.0)
	  (vi 0.0)
	  (pk 0.0)
	  (mx 0.0)
	  (mxloc 0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! vr (vector-ref fvr i))
	(set! vi (vector-ref fvi i))
	(set! pk (+ (* vr vr) (* vi vi)))
	(when (> pk mx)
	  (set! mx pk)
	  (set! mxloc i)))
      (format () "~A ~A~%" mxloc (/ (* 2 (sqrt mx)) fft-size))
      (format () "~A ~A~%" (fvi 4) (fvi (- fft-size 4))))
    (vector-set! fvr 4 0.0)
    (vector-set! fvi 4 0.0)
    (vector-set! fvr (- fft-size 4) 0.0)
    (vector-set! fvi (- fft-size 4) 0.0)
    (let ((mx 0.0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! mx (max mx (abs (vector-ref fvr i)) (abs (vector-ref fvi i)))))
      (format () "noise: ~A~%" mx))))

(define (vector-test)
  (let ((fvr (make-vector fft-size 0.0 real?))
	(fvi (make-vector fft-size 0.0 real?))
	(scl (/ (* 8.0 pi) fft-size)))
    (do ((i 0 (+ i 1))
	 (x 0.0 (+ x scl)))
	((= i fft-size))
      (vector-set! fvr i (sin x)))
    (vector-fft fvr fvi fft-size 1)
    (vector-checker fvr fvi)
    (vector-fft #f #f fft-size 1)
    (vector-checker #f #f)))

(vector-test)
(clear-and-gc)


(define (vector-2d-fft rl n dir)
  (when rl
    (let ((m 0)
	  (j 0)
	  (ipw (floor (log n 2)))
	  (prev 1)
	  (wtemp 0.0)
	  (wpr 0.0)
	  (wpi 0.0)
	  (wr 0.0)
	  (wi 0.0)
	  (mmax 2)
	  (pw (/ n 2))
	  (end 0)
	  (theta (* pi dir))
	  (rl0 (subvector rl 0 fft-size))
	  (rl1 (subvector rl fft-size (* 2 fft-size))))
      (do ((tempr 0.0+i)
	   (tempi 0.0+i)
	   (i 0 (+ i 1)))
	  ((= i n))
	(when (> j i)
	  (set! tempr (vector-ref rl0 j))
	  (set! tempi (vector-ref rl1 j))
	  (vector-set! rl0 j (vector-ref rl0 i))
	  (vector-set! rl1 j (vector-ref rl1 i))
	  (vector-set! rl0 i tempr)
	  (vector-set! rl1 i tempi))
	(set! m (quotient n 2))
	(do () 
	    ((not (<= 2 m j)))
	  (set! j (- j m))
	  (set! m (quotient m 2)))
	(set! j (+ j m)))
      
      (do ((lg 0 (+ lg 1)))
	  ((= lg ipw))
	(set! wpr (cos theta))
	(set! wpi (sin theta))
	(set! wr 1.0)
	(set! wi 0.0)
	(do ((tempr 0.0+i)
	     (tempi 0.0+i)
	     (ii 0 (+ ii 1)))
	    ((= ii prev))
	  (set! j (+ ii prev))
	  (set! end (+ ii (* pw mmax)))
	  (do ((i ii (+ i mmax)))
	      ((= i end))
	    (set! tempr (- (* wr (vector-ref rl0 j)) (* wi (vector-ref rl1 j))))
	    (set! tempi (+ (* wr (vector-ref rl1 j)) (* wi (vector-ref rl0 j))))
	    (vector-set! rl0 j (- (vector-ref rl0 i) tempr))
	    (vector-set! rl0 i (+ (vector-ref rl0 i) tempr))
	    (vector-set! rl1 j (- (vector-ref rl1 i) tempi))
	    (vector-set! rl1 i (+ (vector-ref rl1 i) tempi))
	    (set! j (+ j mmax)))
	  (set! wtemp wr)
	  (set! wr (- (* wr wpr) (* wi wpi)))
	  (set! wi (+ (* wi wpr) (* wtemp wpi))))
	(set! prev mmax)
	(set! mmax (* mmax 2))
	(set! pw (quotient pw 2))
	(set! theta (* theta 0.5)))
      rl)))

(define (vector-2d-checker fvr)
  (when fvr
    (let ((vr 0.0)
	  (vi 0.0)
	  (pk 0.0)
	  (mx 0.0)
	  (mxloc 0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! vr (vector-ref fvr 0 i))
	(set! vi (vector-ref fvr 1 i))
	(set! pk (+ (* vr vr) (* vi vi)))
	(when (> pk mx)
	  (set! mx pk)
	  (set! mxloc i)))
      (format () "~A ~A~%" mxloc (/ (* 2 (sqrt mx)) fft-size))
      (format () "~A ~A~%" (fvr 1 4) (fvr 1 (- fft-size 4))))
    (vector-set! fvr 0 4 0.0)
    (vector-set! fvr 1 4 0.0)
    (vector-set! fvr 0 (- fft-size 4) 0.0)
    (vector-set! fvr 1 (- fft-size 4) 0.0)
    (let ((mx 0.0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! mx (max mx (abs (vector-ref fvr 0 i)) (abs (vector-ref fvr 1 i)))))
      (format () "noise: ~A~%" mx))))

(define (vector-2d-test skip)
  (let ((fvr (make-vector (list skip fft-size) 0.0 real?))
	(scl (/ (* 8.0 pi) fft-size)))
    (do ((i 0 (+ i 1))
	 (x 0.0 (+ x scl)))
	((= i fft-size))
      (vector-set! fvr 0 i (sin x)))
    (vector-2d-fft fvr fft-size 1)
    (vector-2d-checker fvr)
    (vector-2d-fft #f fft-size 1)
    (vector-2d-checker #f)))

(vector-2d-test 2)
(clear-and-gc)


;; --------------------------------------------------------------------------------
;; hash-tables round up to the next power of 2

(format () "~%hash-tables...~%")

(when (> total-memory (* 9 (ash 1 31)))
  (clear-and-gc)
  
  (set! big-size 2000000000)
  (let ((bigv (make-hash-table big-size)))
    (test (length bigv) 2147483648)
    (hash-table-set! bigv 'asdf 12)
    (test (hash-table-ref bigv 'asdf) 12)
    (hash-table-set! bigv (- big-size 10000000) 'asdf)
    (test (hash-table-ref bigv (- big-size 10000000)) 'asdf)
    (fill! bigv #f)
    (test (hash-table-entries bigv) 0)
    (test (length bigv) 2147483648))
  (clear-and-gc)
  )

(when (> total-memory (* 9 (ash 1 32))) ; add some slack
  (set! big-size 2500000000)
  (let ((bigv (make-hash-table big-size)))
    (test (length bigv) 4294967296)
    (hash-table-set! bigv 'asdf 12)
    (test (hash-table-ref bigv 'asdf) 12)
    (hash-table-set! bigv (- big-size 10000000) 'asdf)
    (test (hash-table-ref bigv (- big-size 10000000)) 'asdf)
    )
  (clear-and-gc)
  )


(define (hash-table-fft rl im n dir)
  (when rl
    (do ((i 0 (+ i 1))
	 (j 0))
	((= i n))
      (if (> j i)
	  (let ((tempr (hash-table-ref rl j))
		(tempi (hash-table-ref im j)))
	    (hash-table-set! rl j (hash-table-ref rl i))
	    (hash-table-set! im j (hash-table-ref im i))
	    (hash-table-set! rl i tempr)
	    (hash-table-set! im i tempi)))
      (let ((m (/ n 2)))
	(do () 
	    ((not (<= 2 m j)))
	  (set! j (- j m))
	  (set! m (/ m 2)))
	(set! j (+ j m))))
    (let ((ipow (floor (log n 2)))
	  (prev 1))
      (do ((mmax 2 (* mmax 2))
	   (pow (/ n 2) (/ pow 2))
	   (theta (* pi dir) (* theta 0.5))
	   (lg 0 (+ lg 1))
	   (wpr 0.0)
	   (wpi 0.0)
	   (wr 1.0 1.0)
	   (wi 0.0 0.0)
	   (wtemp 0.0+i))
	  ((= lg ipow))
	(set! wpr (cos theta))
	(set! wpi (sin theta))
	(do ((ii 0 (+ ii 1)))
	    ((= ii prev))
	  (do ((tempr 0.0+i)
	       (tempi 0.0+i)
	       (i ii (+ i mmax))
	       (j (+ ii prev) (+ j mmax))
	       (jj 0 (+ jj 1)))
	      ((>= jj pow))
	    (set! tempr (- (* wr (hash-table-ref rl j)) (* wi (hash-table-ref im j))))
	    (set! tempi (+ (* wr (hash-table-ref im j)) (* wi (hash-table-ref rl j))))
	    (hash-table-set! rl j (- (hash-table-ref rl i) tempr))
	    (hash-table-set! rl i (+ (hash-table-ref rl i) tempr))
	    (hash-table-set! im j (- (hash-table-ref im i) tempi))
	    (hash-table-set! im i (+ (hash-table-ref im i) tempi)))
	  (set! wtemp wr)
	  (set! wr (- (* wr wpr) (* wi wpi)))
	  (set! wi (+ (* wi wpr) (* wtemp wpi))))
	(set! prev mmax)))
    rl))

(define (hash-test)
  (let ((fvr (make-hash-table fft-size)) ; (make-hash-table fft-size #t (cons #t float?))
	(fvi (make-hash-table fft-size))
	(scl (/ (* 8.0 pi) fft-size))
	(vr 0+i)
	(vi 0+i)
	(pk 0+i))
    (do ((i 0 (+ i 1))
	 (x 0.0 (+ x scl)))
	((= i fft-size))
      (hash-table-set! fvr i (sin x))
      (hash-table-set! fvi i 0.0))
    (hash-table-fft fvr fvi fft-size 1)
    (do ((mx 0.0)
	 (mxloc 0)
	 (i 0 (+ i 1)))
	((= i fft-size) 
	 (format () "~A ~A~%" mxloc (/ (* 2 (sqrt mx)) fft-size)))
      (set! vr (hash-table-ref fvr i))
      (set! vi (hash-table-ref fvi i))
      (set! pk (+ (* vr vr) (* vi vi)))
      (when (> pk mx)
	(set! mx pk)
	(set! mxloc i)))
    (hash-table-set! fvr 4 0.0)
    (hash-table-set! fvi 4 0.0)
    (hash-table-set! fvr (- fft-size 4) 0.0)
    (hash-table-set! fvi (- fft-size 4) 0.0)
    (do ((mx 0.0)
	 (i 0 (+ i 1)))
	((= i fft-size)
	 (format () "noise: ~A~%" mx))
      (set! mx (max mx (abs (hash-table-ref fvr i)) (abs (hash-table-ref fvi i)))))
    (hash-table-fft #f #f fft-size 1)))
(hash-test)
(clear-and-gc)


(define (hash-symbol-fft rl im n rl-syms im-syms dir)
  (when rl
    (do ((i 0 (+ i 1))
	 (j 0))
	((= i n))
      (if (> j i)
	  (let ((tempr (hash-table-ref rl (vector-ref rl-syms j)))
		(tempi (hash-table-ref im (vector-ref im-syms j))))
	    (hash-table-set! rl (vector-ref rl-syms j) (hash-table-ref rl (vector-ref rl-syms i)))
	    (hash-table-set! im (vector-ref im-syms j) (hash-table-ref im (vector-ref im-syms i)))
	    (hash-table-set! rl (vector-ref rl-syms i) tempr)
	    (hash-table-set! im (vector-ref im-syms i) tempi)))
      (let ((m (/ n 2)))
	(do () 
	    ((not (<= 2 m j)))
	  (set! j (- j m))
	  (set! m (/ m 2)))
	(set! j (+ j m))))
    (let ((ipow (floor (log n 2)))
	  (prev 1))
      (do ((mmax 2 (* mmax 2))
	   (pow (/ n 2) (/ pow 2))
	   (theta (* pi dir) (* theta 0.5))
	   (lg 0 (+ lg 1))
	   (wpr 0.0)
	   (wpi 0.0)
	   (wr 1.0 1.0)
	   (wi 0.0 0.0)
	   (wtemp 0.0+i))
	  ((= lg ipow))
	(set! wpr (cos theta))
	(set! wpi (sin theta))
	(do ((ii 0 (+ ii 1)))
	    ((= ii prev))
	  (do ((tempr 0.0+i)
	       (tempi 0.0+i)
	       (i ii (+ i mmax))
	       (j (+ ii prev) (+ j mmax))
	       (jj 0 (+ jj 1)))
	      ((>= jj pow))
	    (set! tempr (- (* wr (hash-table-ref rl (vector-ref rl-syms j))) (* wi (hash-table-ref im (vector-ref im-syms j)))))
	    (set! tempi (+ (* wr (hash-table-ref im (vector-ref im-syms j))) (* wi (hash-table-ref rl (vector-ref rl-syms j)))))
	    (hash-table-set! rl (vector-ref rl-syms j) (- (hash-table-ref rl (vector-ref rl-syms i)) tempr))
	    (hash-table-set! rl (vector-ref rl-syms i) (+ (hash-table-ref rl (vector-ref rl-syms i)) tempr))
	    (hash-table-set! im (vector-ref im-syms j) (- (hash-table-ref im (vector-ref im-syms i)) tempi))
	    (hash-table-set! im (vector-ref im-syms i) (+ (hash-table-ref im (vector-ref im-syms i)) tempi)))
	  (set! wtemp wr)
	  (set! wr (- (* wr wpr) (* wi wpi)))
	  (set! wi (+ (* wi wpr) (* wtemp wpi))))
	(set! prev mmax)))
    rl))

(define (hash-symbol-test)
  (let ((fvr (hash-table))
	(fvi (hash-table))
	(rl-syms (make-vector fft-size))
	(im-syms (make-vector fft-size))
	(scl (/ (* 8.0 pi) fft-size))
	(vr 0+i)
	(vi 0+i)
	(pk 0+i))
    (do ((i 0 (+ i 1))
	 (x 0.0 (+ x scl)))
	((= i fft-size))
      (vector-set! rl-syms i (gensym "rl"))
      (vector-set! im-syms i (gensym "im"))
      (hash-table-set! fvr (vector-ref rl-syms i) (sin x))
      (hash-table-set! fvi (vector-ref im-syms i) 0.0))
    (hash-symbol-fft fvr fvi fft-size rl-syms im-syms 1)
    (do ((mx 0.0)
	 (mxloc 0)
	 (i 0 (+ i 1)))
	((= i fft-size) 
	 (format () "~A ~A~%" mxloc (/ (* 2 (sqrt mx)) fft-size)))
      (set! vr (hash-table-ref fvr (vector-ref rl-syms i)))
      (set! vi (hash-table-ref fvi (vector-ref im-syms i)))
      (set! pk (+ (* vr vr) (* vi vi)))
      (when (> pk mx)
	(set! mx pk)
	(set! mxloc i)))
    (hash-table-set! fvr (vector-ref rl-syms 4) 0.0)
    (hash-table-set! fvi (vector-ref im-syms 4) 0.0)
    (hash-table-set! fvr (vector-ref rl-syms (- fft-size 4)) 0.0)
    (hash-table-set! fvi (vector-ref im-syms (- fft-size 4)) 0.0)
    (do ((mx 0.0)
	 (i 0 (+ i 1)))
	((= i fft-size)
	 (format () "noise: ~A~%" mx))
      (set! mx (max mx (abs (hash-table-ref fvr (vector-ref rl-syms i))) (abs (hash-table-ref fvi (vector-ref im-syms i))))))
    (fill! rl-syms #f)
    (fill! im-syms #f)
    (fill! fvr #f)
    (fill! fvi #f)
    (hash-symbol-fft #f #f fft-size #f #f 1)))
(hash-symbol-test)
(clear-and-gc)


;; --------------------------------------------------------------------------------
(format () "~%lets...~%")

(define (let-fft rl im n rl-syms im-syms dir)
  (when rl
    (do ((i 0 (+ i 1))
	 (j 0))
	((= i n))
      (if (> j i)
	  (let ((tempr (let-ref rl (vector-ref rl-syms j)))
		(tempi (let-ref im (vector-ref im-syms j))))
	    (let-set! rl (vector-ref rl-syms j) (let-ref rl (vector-ref rl-syms i)))
	    (let-set! im (vector-ref im-syms j) (let-ref im (vector-ref im-syms i)))
	    (let-set! rl (vector-ref rl-syms i) tempr)
	    (let-set! im (vector-ref im-syms i) tempi)))
      (let ((m (/ n 2)))
	(do () 
	    ((not (<= 2 m j)))
	  (set! j (- j m))
	  (set! m (/ m 2)))
	(set! j (+ j m))))
    (let ((ipow (floor (log n 2)))
	  (prev 1))
      (do ((mmax 2 (* mmax 2))
	   (pow (/ n 2) (/ pow 2))
	   (theta (* pi dir) (* theta 0.5))
	   (lg 0 (+ lg 1))
	   (wpr 0.0)
	   (wpi 0.0)
	   (wr 1.0 1.0)
	   (wi 0.0 0.0)
	   (wtemp 0.0+i))
	  ((= lg ipow))
	(set! wpr (cos theta))
	(set! wpi (sin theta))
	(do ((ii 0 (+ ii 1)))
	    ((= ii prev))
	  (do ((tempr 0.0+i)
	       (tempi 0.0+i)
	       (i ii (+ i mmax))
	       (j (+ ii prev) (+ j mmax))
	       (jj 0 (+ jj 1)))
	      ((>= jj pow))
	    (set! tempr (- (* wr (let-ref rl (vector-ref rl-syms j))) (* wi (let-ref im (vector-ref im-syms j)))))
	    (set! tempi (+ (* wr (let-ref im (vector-ref im-syms j))) (* wi (let-ref rl (vector-ref rl-syms j)))))
	    (let-set! rl (vector-ref rl-syms j) (- (let-ref rl (vector-ref rl-syms i)) tempr))
	    (let-set! rl (vector-ref rl-syms i) (+ (let-ref rl (vector-ref rl-syms i)) tempr))
	    (let-set! im (vector-ref im-syms j) (- (let-ref im (vector-ref im-syms i)) tempi))
	    (let-set! im (vector-ref im-syms i) (+ (let-ref im (vector-ref im-syms i)) tempi)))
	  (set! wtemp wr)
	  (set! wr (- (* wr wpr) (* wi wpi)))
	  (set! wi (+ (* wi wpr) (* wtemp wpi))))
	(set! prev mmax)))
    rl))

(define (let-test)
  (let ((fvr (inlet))
	(fvi (inlet))
	(rl-syms (make-vector fft-size))
	(im-syms (make-vector fft-size))
	(scl (/ (* 8.0 pi) fft-size))
	(vr 0+i)
	(vi 0+i)
	(pk 0+i))
    (do ((i 0 (+ i 1))
	 (x 0.0 (+ x scl)))
	((= i fft-size))
      (vector-set! rl-syms i (gensym "rl-"))
      (vector-set! im-syms i (gensym "im-"))
      (varlet fvr (vector-ref rl-syms i) (sin x))
      (varlet fvi (vector-ref im-syms i) 0.0))
    (let-fft fvr fvi fft-size rl-syms im-syms 1)
    (do ((mx 0.0)
	 (mxloc 0)
	 (i 0 (+ i 1)))
	((= i fft-size) 
	 (format () "~A ~A~%" mxloc (/ (* 2 (sqrt mx)) fft-size)))
      (set! vr (let-ref fvr (vector-ref rl-syms i)))
      (set! vi (let-ref fvi (vector-ref im-syms i)))
      (set! pk (+ (* vr vr) (* vi vi)))
      (when (> pk mx)
	(set! mx pk)
	(set! mxloc i)))
    (let-set! fvr (vector-ref rl-syms 4) 0.0)
    (let-set! fvi (vector-ref im-syms 4) 0.0)
    (let-set! fvr (vector-ref rl-syms (- fft-size 4)) 0.0)
    (let-set! fvi (vector-ref im-syms (- fft-size 4)) 0.0)
    (do ((mx 0.0)
	 (i 0 (+ i 1)))
	((= i fft-size)
	 (format () "noise: ~A~%" mx))
      (set! mx (max mx (abs (let-ref fvr (vector-ref rl-syms i))) (abs (let-ref fvi (vector-ref im-syms i))))))
    (fill! rl-syms #f)
    (fill! im-syms #f)
    (let-fft #f #f fft-size #f #f 1)))
(let-test)
(clear-and-gc)


(format () "~%sundries...~%")
;(set! fft-size (ash 1 15))

(define (string-fft rl im n dir)
  (when rl
    (let ((m 0)
	  (j 0)
	  (ipw (floor (log n 2)))
	  (prev 1)
	  (wtemp 0.0+i)
	  (wpr 0.0)
	  (wpi 0.0)
	  (wr 0.0)
	  (wi 0.0)
	  (mmax 2)
	  (pw (/ n 2))
	  (end 0)
	  (theta (* pi dir)))
      (do ((tempr 0.0+i)
	   (tempi 0.0+i)
	   (i 0 (+ i 1)))
	  ((= i n))
	(when (> j i)
	  (set! tempr (string->number (vector-ref rl j)))
	  (set! tempi (string->number (vector-ref im j)))
	  (vector-set! rl j (vector-ref rl i))
	  (vector-set! im j (vector-ref im i))
	  (vector-set! rl i (number->string tempr))
	  (vector-set! im i (number->string tempi)))
	(set! m (quotient n 2))
	(do () 
	    ((not (<= 2 m j)))
	  (set! j (- j m))
	  (set! m (quotient m 2)))
	(set! j (+ j m)))
      
      (do ((lg 0 (+ lg 1)))
	  ((= lg ipw))
	(set! wpr (cos theta))
	(set! wpi (sin theta))
	(set! wr 1.0)
	(set! wi 0.0)
	(do ((ii 0 (+ ii 1)))
	    ((= ii prev))
	  (set! j (+ ii prev))
	  (set! end (+ ii (* pw mmax)))
	  (do ((tempr 0.0+i) 
	       (tempi 0.0+i) 
	       (i ii (+ i mmax)))
	      ((= i end))
	    (set! tempr (- (* wr (string->number (vector-ref rl j))) (* wi (string->number (vector-ref im j)))))
	    (set! tempi (+ (* wr (string->number (vector-ref im j))) (* wi (string->number (vector-ref rl j)))))
	    (vector-set! rl j (number->string (- (string->number (vector-ref rl i)) tempr)))
	    (vector-set! rl i (number->string (+ (string->number (vector-ref rl i)) tempr)))
	    (vector-set! im j (number->string (- (string->number (vector-ref im i)) tempi)))
	    (vector-set! im i (number->string (+ (string->number (vector-ref im i)) tempi)))
	    (set! j (+ j mmax)))
	  (set! wtemp wr)
	  (set! wr (- (* wr wpr) (* wi wpi)))
	  (set! wi (+ (* wi wpr) (* wtemp wpi))))
	(set! prev mmax)
	(set! mmax (* mmax 2))
	(set! pw (quotient pw 2))
	(set! theta (* theta 0.5)))
      rl)))

(define (string-checker fvr fvi)
  (when fvr
    (let ((vr 0.0+i)
	  (vi 0.0+i)
	  (pk 0.0+i)
	  (mx 0.0)
	  (mxloc 0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! vr (string->number (vector-ref fvr i)))
	(set! vi (string->number (vector-ref fvi i)))
	(set! pk (+ (* vr vr) (* vi vi)))
	(when (> pk mx)
	  (set! mx pk)
	  (set! mxloc i)))
      (format () "~A ~A~%" mxloc (/ (* 2 (sqrt mx)) fft-size))
      (format () "~A ~A~%" (string->number (vector-ref fvi 4)) (string->number (vector-ref fvi (- fft-size 4)))))
    (vector-set! fvr 4 "0.0")
    (vector-set! fvi 4 "0.0")
    (vector-set! fvr (- fft-size 4) "0.0")
    (vector-set! fvi (- fft-size 4) "0.0")
    (let ((mx 0.0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! mx (max mx (abs (string->number (vector-ref fvr i))) (abs (string->number (vector-ref fvi i))))))
      (format () "noise: ~A~%" mx))))

(define (string-test)
  (let ((fvr (make-vector fft-size))
	(fvi (make-vector fft-size "0.0"))
	(scl (/ (* 8.0 pi) fft-size)))
    (do ((i 0 (+ i 1))
	 (x 0.0 (+ x scl)))
	((= i fft-size))
      (vector-set! fvr i (number->string (sin x))))
    (string-fft fvr fvi fft-size 1)
    (string-checker fvr fvi)
    (string-fft #f #f fft-size 1)
    (string-checker #f #f)
    (fill! fvr #f)
    (fill! fvi #f)))
(string-test)


(let-temporarily (((*s7* 'float-format-precision) 48))
(format *stderr* "~%radix...~%")
(define radix 2)
(define (string-radix-fft rl im n dir)
  (when rl
    (let ((m 0)
	  (j 0)
	  (ipw (floor (log n 2)))
	  (prev 1)
	  (wtemp 0.0+i)
	  (wpr 0.0)
	  (wpi 0.0)
	  (wr 0.0)
	  (wi 0.0)
	  (mmax 2)
	  (pw (/ n 2))
	  (end 0)
	  (theta (* pi dir)))
      (do ((tempr 0.0+i)
	   (tempi 0.0+i)
	   (i 0 (+ i 1)))
	  ((= i n))
	(when (> j i)
	  (set! tempr (string->number (vector-ref rl j) radix))
	  (set! tempi (string->number (vector-ref im j) radix))
	  (vector-set! rl j (vector-ref rl i))
	  (vector-set! im j (vector-ref im i))
	  (vector-set! rl i (number->string tempr radix))
	  (vector-set! im i (number->string tempi radix)))
	(set! m (quotient n 2))
	(do () 
	    ((not (<= 2 m j)))
	  (set! j (- j m))
	  (set! m (quotient m 2)))
	(set! j (+ j m)))
      
      (do ((lg 0 (+ lg 1)))
	  ((= lg ipw))
	(set! wpr (cos theta))
	(set! wpi (sin theta))
	(set! wr 1.0)
	(set! wi 0.0)
	(do ((ii 0 (+ ii 1)))
	    ((= ii prev))
	  (set! j (+ ii prev))
	  (set! end (+ ii (* pw mmax)))
	  (do ((tempr 0.0+i) 
	       (tempi 0.0+i)
	       (i ii (+ i mmax)))
	      ((= i end))
	    (set! tempr (- (* wr (string->number (vector-ref rl j) radix)) (* wi (string->number (vector-ref im j) radix))))
	    (set! tempi (+ (* wr (string->number (vector-ref im j) radix)) (* wi (string->number (vector-ref rl j) radix))))
	    (vector-set! rl j (number->string (- (string->number (vector-ref rl i) radix) tempr) radix))
	    (vector-set! rl i (number->string (+ (string->number (vector-ref rl i) radix) tempr) radix))
	    (vector-set! im j (number->string (- (string->number (vector-ref im i) radix) tempi) radix))
	    (vector-set! im i (number->string (+ (string->number (vector-ref im i) radix) tempi) radix))
	    (set! j (+ j mmax)))
	  (set! wtemp wr)
	  (set! wr (- (* wr wpr) (* wi wpi)))
	  (set! wi (+ (* wi wpr) (* wtemp wpi))))
	(set! prev mmax)
	(set! mmax (* mmax 2))
	(set! pw (quotient pw 2))
	(set! theta (* theta 0.5)))
      rl)))

(define (string-radix-checker fvr fvi)
  (when fvr
    (let ((vr 0.0)
	  (vi 0.0)
	  (pk 0.0)
	  (mx 0.0)
	  (mxloc 0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! vr (string->number (vector-ref fvr i) radix))
	(set! vi (string->number (vector-ref fvi i) radix))
	(set! pk (+ (* vr vr) (* vi vi)))
	(when (> pk mx)
	  (set! mx pk)
	  (set! mxloc i)))
      (format () "~A ~A~%" mxloc (/ (* 2 (sqrt mx)) fft-size))
      (format () "~A ~A~%" (fvi 4) (fvi (- fft-size 4))))
    (vector-set! fvr 4 "0.0")
    (vector-set! fvi 4 "0.0")
    (vector-set! fvr (- fft-size 4) "0.0")
    (vector-set! fvi (- fft-size 4) "0.0")
    (let ((mx 0.0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! mx (max mx (abs (string->number (vector-ref fvr i) radix)) (abs (string->number (vector-ref fvi i) radix)))))
      (format () "noise: ~A~%" mx))))

(define (string-radix-test)
  (let ((fvr (make-vector fft-size))
	(fvi (make-vector fft-size "0.0"))
	(scl (/ (* 8.0 pi) fft-size)))
    (do ((i 0 (+ i 1))
	 (x 0.0 (+ x scl)))
	((= i fft-size))
      (vector-set! fvr i (number->string (sin x) radix)))
    (string-radix-fft fvr fvi fft-size 1)
    (string-radix-checker fvr fvi)
    (fill! fvr #f)
    (fill! fvi #f)
    (string-radix-fft #f #f fft-size 1)
    (string-radix-checker #f #f)))
(string-radix-test))

(clear-and-gc)


(define (port-fft rl im n dir)
  (when rl
    (let ((m 0)
	  (j 0)
	  (ipw (floor (log n 2)))
	  (prev 1)
	  (wtemp 0.0+i)
	  (wpr 0.0)
	  (wpi 0.0)
	  (wr 0.0)
	  (wi 0.0)
	  (mmax 2)
	  (pw (/ n 2))
	  (end 0)
	  (theta (* pi dir)))
      (do ((tempr 0.0+i) 
	   (tempi 0.0+i) 
	   (i 0 (+ i 1)))
	  ((= i n))
	(when (> j i)
	  (set! tempr (with-input-from-string (vector-ref rl j) read))
	  (set! tempi (with-input-from-string (vector-ref im j) read))
	  (vector-set! rl j (vector-ref rl i))
	  (vector-set! im j (vector-ref im i))
	  (vector-set! rl i (number->string tempr))
	  (vector-set! im i (number->string tempi)))
	(set! m (quotient n 2))
	(do () 
	    ((not (<= 2 m j)))
	  (set! j (- j m))
	  (set! m (quotient m 2)))
	(set! j (+ j m)))
      
      (do ((lg 0 (+ lg 1)))
	  ((= lg ipw))
	(set! wpr (cos theta))
	(set! wpi (sin theta))
	(set! wr 1.0)
	(set! wi 0.0)
	(do ((ii 0 (+ ii 1)))
	    ((= ii prev))
	  (set! j (+ ii prev))
	  (set! end (+ ii (* pw mmax)))
	  (do ((tempr 0.0+i) 
	       (tempi 0.0+i)
	       (i ii (+ i mmax)))
	      ((= i end))
	    (set! tempr (- (* wr (with-input-from-string (vector-ref rl j) read)) (* wi (with-input-from-string (vector-ref im j) read))))
	    (set! tempi (+ (* wr (with-input-from-string (vector-ref im j) read)) (* wi (with-input-from-string (vector-ref rl j) read))))
	    (vector-set! rl j (number->string (- (with-input-from-string (vector-ref rl i) read) tempr)))
	    (vector-set! rl i (number->string (+ (with-input-from-string (vector-ref rl i) read) tempr)))
	    (vector-set! im j (number->string (- (with-input-from-string (vector-ref im i) read) tempi)))
	    (vector-set! im i (number->string (+ (with-input-from-string (vector-ref im i) read) tempi)))
	    (set! j (+ j mmax)))
	  (set! wtemp wr)
	  (set! wr (- (* wr wpr) (* wi wpi)))
	  (set! wi (+ (* wi wpr) (* wtemp wpi))))
	(set! prev mmax)
	(set! mmax (* mmax 2))
	(set! pw (quotient pw 2))
	(set! theta (* theta 0.5)))
      rl)))

(define (port-checker fvr fvi)
  (when fvr
    (let ((vr 0.0)
	  (vi 0.0)
	  (pk 0.0)
	  (mx 0.0)
	  (mxloc 0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! vr (with-input-from-string (vector-ref fvr i) read))
	(set! vi (with-input-from-string (vector-ref fvi i) read))
	(set! pk (+ (* vr vr) (* vi vi)))
	(when (> pk mx)
	  (set! mx pk)
	  (set! mxloc i)))
      (format () "~A ~A~%" mxloc (/ (* 2 (sqrt mx)) fft-size))
      (format () "~A ~A~%" (fvi 4) (fvi (- fft-size 4))))
    (vector-set! fvr 4 "0.0")
    (vector-set! fvi 4 "0.0")
    (vector-set! fvr (- fft-size 4) "0.0")
    (vector-set! fvi (- fft-size 4) "0.0")
    (let ((mx 0.0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! mx (max mx (abs (with-input-from-string (vector-ref fvr i) read)) (abs (with-input-from-string (vector-ref fvi i) read)))))
      (format () "noise: ~A~%" mx))))

(define (port-test)
  (let ((fvr (make-vector fft-size))
	(fvi (make-vector fft-size "0.0"))
	(scl (/ (* 8.0 pi) fft-size)))
    (do ((i 0 (+ i 1))
	 (x 0.0 (+ x scl)))
	((= i fft-size))
      (vector-set! fvr i (number->string (sin x))))
    (port-fft fvr fvi fft-size 1)
    (port-checker fvr fvi)
    (port-fft #f #f fft-size 1)
    (port-checker #f #f)
    (fill! fvr #f)
    (fill! fvi #f)))
(port-test)


;(define-expansion (new-value val)
;  `(make-vector (make-list (+ 1 (random 4)) (+ 1 (random 4))) ,val))

(define lists (make-vector 16))
(do ((i 0 (+ i 1))
     (j 1)
     (k 1))
    ((= i 16))
  (set! (lists i) (make-list k j))
  (set! j (+ j 1))
  (when (= j 5) (set! j 1) (set! k (+ k 1))))

(define-expansion (new-value val)
  `(make-vector (vector-ref lists (random 16)) ,val))

(define-expansion (old-value ref)
  `((subvector ,ref 0 1) 0))

(define (complex-2d-fft data n dir)
  (when data
    (do ((i 0 (+ i 1))
	 (j 0))
	((= i n))
      (if (> j i)
	  (let ((temp (vector-ref data j)))
	    (vector-set! data j (vector-ref data i))
	    (vector-set! data i temp)))
      (let ((m (/ n 2)))
	(do () 
	    ((not (<= 2 m j)))
	  (set! j (- j m))
	  (set! m (/ m 2)))
	(set! j (+ j m))))
    (let ((ipow (floor (log n 2)))
	  (prev 1))
      (do ((lg 0 (+ lg 1))
	   (mmax 2 (* mmax 2))
	   (pow (/ n 2) (/ pow 2))
	   (theta (complex 0.0 (* pi dir)) (* theta 0.5))
	   (wpc 0.0)
	   (wc 1.0 1.0))
	  ((= lg ipow))
	(set! wpc (exp theta))
	(do ((ii 0 (+ ii 1)))
	    ((= ii prev))
	  (do ((tc 0.0+i)
	       (jj 0 (+ jj 1))
	       (i ii (+ i mmax))
	       (j (+ ii prev) (+ j mmax)))
	      ((>= jj pow))
	    (set! tc (* wc (old-value (vector-ref data j))))
	    (vector-set! data j (new-value (- (old-value (vector-ref data i)) tc)))
	    (vector-set! data i (new-value (+ (old-value (vector-ref data i)) tc))))
	  (set! wc (* wc wpc)))
	(set! prev mmax)))
    data))

(define (complex-2d-checker fvr)
  (when fvr
    (let ((pk 0.0)
	  (mx 0.0)
	  (mxloc 0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! pk (magnitude (old-value (vector-ref fvr i))))
	(when (> pk mx)
	  (set! mx pk)
	  (set! mxloc i)))
      (format () "~A ~A~%" mxloc (/ (* 2 (sqrt mx)) fft-size))
      (format () "~A ~A~%" (magnitude (old-value (fvr 4))) (magnitude (old-value (fvr (- fft-size 4))))))
    (vector-set! fvr 4 (new-value 0.0))
    (vector-set! fvr (- fft-size 4) (new-value 0.0))
    (let ((mx 0.0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! mx (max mx (magnitude (old-value (vector-ref fvr i))))))
      (format () "noise: ~A~%" mx))))

(define (complex-2d-test)
  (let ((fvr (make-vector fft-size))
	(scl (/ (* 8.0 pi) fft-size)))
    (do ((i 0 (+ i 1))
	 (x 0.0 (+ x scl)))
	((= i fft-size))
      (vector-set! fvr i (new-value (sin x))))
    (complex-2d-fft fvr fft-size 1)
    (complex-2d-checker fvr)
    (complex-2d-fft #f fft-size 1)
    (complex-2d-checker #f)
    (fill! fvr #f)))
(complex-2d-test)


(clear-and-gc)
;(set! fft-size (ash 1 17))
(define (complex-hash-fft data n dir)
  (when data
    (do ((i 0 (+ i 1))
	 (j 0))
	((= i n))
      (if (> j i)
	  (let ((temp (vector-ref data j)))
	    (vector-set! data j (vector-ref data i))
	    (vector-set! data i temp)))
      (let ((m (/ n 2)))
	(do () 
	    ((not (<= 2 m j)))
	  (set! j (- j m))
	  (set! m (/ m 2)))
	(set! j (+ j m))))
    (let ((ipow (floor (log n 2)))
	  (prev 1))
      (do ((mmax 2 (* mmax 2))
	   (pow (/ n 2) (/ pow 2))
	   (theta (complex 0.0 (* pi dir)) (* theta 0.5))
	   (lg 0 (+ lg 1)))
	  ((= lg ipow))
	(let ((wpc (exp theta))
	      (wc 1.0))
	  (do ((ii 0 (+ ii 1)))
	      ((= ii prev))
	    (do ((i ii (+ i mmax))
		 (j (+ ii prev) (+ j mmax))
		 (jj 0 (+ jj 1)))
		((>= jj pow))
	      (let ((tc (* wc (hash-table-ref (vector-ref data j) 'z)))) ; this could be (data j 'z)!
		(vector-set! data j (hash-table 'z (- (hash-table-ref (vector-ref data i) 'z) tc)))
		(vector-set! data i (hash-table 'z (+ (hash-table-ref (vector-ref data i) 'z) tc)))))
	    (set! wc (* wc wpc)))
	  (set! prev mmax))))
    data))

(define (complex-hash-checker fvr)
  (when fvr
    (let ((pk 0.0)
	  (mx 0.0)
	  (mxloc 0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! pk (magnitude (hash-table-ref (vector-ref fvr i) 'z)))
	(when (> pk mx)
	  (set! mx pk)
	  (set! mxloc i)))
      (format () "~A ~A~%" mxloc (/ (* 2 (sqrt mx)) fft-size))
      (format () "~A ~A~%" 
	      (magnitude (hash-table-ref (vector-ref fvr 4) 'z))
	      (magnitude (hash-table-ref (vector-ref fvr (- fft-size 4)) 'z))))
    (vector-set! fvr 4 (hash-table 'z 0.0))
    (vector-set! fvr (- fft-size 4) (hash-table 'z 0.0))
    (let ((mx 0.0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! mx (max mx (magnitude (hash-table-ref (vector-ref fvr i) 'z)))))
      (format () "noise: ~A~%" mx))))

(define (complex-hash-test)
  (let ((fvr (make-vector fft-size))
	(scl (/ (* 8.0 pi) fft-size)))
    (do ((i 0 (+ i 1))
	 (x 0.0 (+ x scl)))
	((= i fft-size))
      (vector-set! fvr i (hash-table 'z (sin x))))
    (complex-hash-fft fvr fft-size 1)
    (complex-hash-checker fvr)
    (complex-hash-fft #f fft-size 1)
    (complex-hash-checker #f)
    (fill! fvr #f)))
(complex-hash-test)

(clear-and-gc)


(define (iterator-vector-fft rl im n dir)
  (when rl
    (let ((m 0)
	  (j 0)
	  (ipw (floor (log n 2)))
	  (prev 1)
	  (wtemp 0.0+i)
	  (wpr 0.0)
	  (wpi 0.0)
	  (wr 0.0)
	  (wi 0.0)
	  (mmax 2)
	  (pw (/ n 2))
	  (end 0)
	  (theta (* pi dir))
	  (tempbr #f)
	  (tempbi #f))
      (do ((tempr 0.0+i) 
	   (tempi 0.0+i)
	   (i 0 (+ i 1)))
	  ((= i n))
	(when (> j i)
	  (set! tempbr (vector-ref rl j))
	  (set! tempbi (vector-ref im j))
	  (vector-set! rl j (vector-ref rl i))
	  (vector-set! im j (vector-ref im i))
	  (vector-set! rl i tempbr)
	  (vector-set! im i tempbi))
	(set! m (quotient n 2))
	(do () 
	    ((not (<= 2 m j)))
	  (set! j (- j m))
	  (set! m (quotient m 2)))
	(set! j (+ j m)))
      
      (do ((lg 0 (+ lg 1)))
	  ((= lg ipw))
	(set! wpr (cos theta))
	(set! wpi (sin theta))
	(set! wr 1.0)
	(set! wi 0.0)
	(do ((ii 0 (+ ii 1)))
	    ((= ii prev))
	  (set! j (+ ii prev))
	  (set! end (+ ii (* pw mmax)))
	  (do ((tempr 0.0+i)
	       (tempi 0.0+i)
	       (i ii (+ i mmax)))
	      ((= i end))
	    (set! tempr (- (* wr (iterate (vector-ref rl j))) (* wi (iterate (vector-ref im j)))))
	    (set! tempi (+ (* wr (iterate (vector-ref im j))) (* wi (iterate (vector-ref rl j)))))
	    (vector-set! rl j (make-iterator (make-float-vector 2 (- (iterate (vector-ref rl i)) tempr))))
	    (vector-set! rl i (make-iterator (make-float-vector 2 (+ (iterate (vector-ref rl i)) tempr))))
	    (vector-set! im j (make-iterator (make-float-vector 2 (- (iterate (vector-ref im i)) tempi))))
	    (vector-set! im i (make-iterator (make-float-vector 2 (+ (iterate (vector-ref im i)) tempi))))
	    (set! j (+ j mmax)))
	  (set! wtemp wr)
	  (set! wr (- (* wr wpr) (* wi wpi)))
	  (set! wi (+ (* wi wpr) (* wtemp wpi))))
	(set! prev mmax)
	(set! mmax (* mmax 2))
	(set! pw (quotient pw 2))
	(set! theta (* theta 0.5)))
      rl)))

(define (iterator-vector-checker fvr fvi)
  (when fvr
    (let ((vr 0.0+i)
	  (vi 0.0+i)
	  (pk 0.0+i)
	  (mx 0.0)
	  (mxloc 0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! vr (iterate (vector-ref fvr i)))
	(set! vi (iterate (vector-ref fvi i)))
	(set! pk (+ (* vr vr) (* vi vi)))
	(when (> pk mx)
	  (set! mx pk)
	  (set! mxloc i)))
      (format () "~A ~A~%" mxloc (/ (* 2 (sqrt mx)) fft-size))
      (format () "~A ~A~%" (iterate (vector-ref fvi 4)) (iterate (vector-ref fvi (- fft-size 4)))))
    (vector-set! fvr 4 (make-iterator (make-float-vector 2 0.0)))
    (vector-set! fvi 4 (make-iterator (make-float-vector 2 0.0)))
    (vector-set! fvr (- fft-size 4) (make-iterator (make-float-vector 2 0.0)))
    (vector-set! fvi (- fft-size 4) (make-iterator (make-float-vector 2 0.0)))
    (let ((mx 0.0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! mx (max mx (abs (iterate (vector-ref fvr i))) (abs (iterate (vector-ref fvi i))))))
      (format () "noise: ~A~%" mx))))

(define (iterator-vector-test)
  (let ((fvr (make-vector fft-size))
	(fvi (make-vector fft-size))
	(scl (/ (* 8.0 pi) fft-size)))
    (do ((i 0 (+ i 1))
	 (x 0.0 (+ x scl)))
	((= i fft-size))
      (vector-set! fvi i (make-iterator (make-float-vector 2 0.0)))
      (vector-set! fvr i (make-iterator (make-float-vector 2 (sin x)))))
    (iterator-vector-fft fvr fvi fft-size 1)
    (iterator-vector-checker fvr fvi)
    (iterator-vector-fft #f #f fft-size 1)
    (iterator-vector-checker #f #f)
    (fill! fvr #f)
    (fill! fvi #f)))

(iterator-vector-test)
(clear-and-gc)

(define (complex-closure-fft data n dir)
  (when data
    (do ((i 0 (+ i 1))
	 (j 0))
	((= i n))
      (if (> j i)
	  (let ((temp (vector-ref data j)))
	    (vector-set! data j (vector-ref data i))
	    (vector-set! data i temp)))
      (let ((m (/ n 2)))
	(do () 
	    ((not (<= 2 m j)))
	  (set! j (- j m))
	  (set! m (/ m 2)))
	(set! j (+ j m))))
    (let ((ipow (floor (log n 2)))
	  (prev 1))
      (do ((mmax 2 (* mmax 2))
	   (pow (/ n 2) (/ pow 2))
	   (theta (complex 0.0 (* pi dir)) (* theta 0.5))
	   (lg 0 (+ lg 1)))
	  ((= lg ipow))
	(let ((wpc (exp theta))
	      (wc 1.0))
	  (do ((ii 0 (+ ii 1)))
	      ((= ii prev))
	    (do ((i ii (+ i mmax))
		 (j (+ ii prev) (+ j mmax))
		 (jj 0 (+ jj 1)))
		((>= jj pow))
	      (let ((tc (* wc ((vector-ref data j))))) 
		(vector-set! data j (let ((z (- ((vector-ref data i)) tc))) (lambda () z)))
		(vector-set! data i (let ((z (+ ((vector-ref data i)) tc))) (lambda () z)))))
	    (set! wc (* wc wpc)))
	  (set! prev mmax))))
    data))

(define (complex-closure-checker fvr)
  (when fvr
    (let ((pk 0.0)
	  (mx 0.0)
	  (mxloc 0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! pk (magnitude ((vector-ref fvr i))))
	(when (> pk mx)
	  (set! mx pk)
	  (set! mxloc i)))
      (format () "~A ~A~%" mxloc (/ (* 2 (sqrt mx)) fft-size))
      (format () "~A ~A~%" 
	      (magnitude ((vector-ref fvr 4)))
	      (magnitude ((vector-ref fvr (- fft-size 4))))))
    (vector-set! fvr 4 (let ((z 0.0)) (lambda () z)))
    (vector-set! fvr (- fft-size 4) (let ((z 0.0)) (lambda () z)))
    (let ((mx 0.0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! mx (max mx (magnitude ((vector-ref fvr i))))))
      (format () "noise: ~A~%" mx))))

(define (complex-closure-test)
  (let ((fvr (make-vector fft-size))
	(scl (/ (* 8.0 pi) fft-size)))
    (do ((i 0 (+ i 1))
	 (x 0.0 (+ x scl)))
	((= i fft-size))
      (vector-set! fvr i (let ((z (sin x))) (lambda () z))))
    (complex-closure-fft fvr fft-size 1)
    (complex-closure-checker fvr)
    (complex-closure-fft #f fft-size 1)
    (complex-closure-checker #f)
    (fill! fvr #f)))
(complex-closure-test)

(clear-and-gc)

;; --------------------------------------------------------------------------------

(load "s7test-block.so" (sublet (curlet) (cons 'init_func 'block_init)))
(format () "~%blocks...~%")

(when (> total-memory (* 10 big-size))
  (clear-and-gc)
  (let ((bigv (make-block big-size)))
    (test (length bigv) big-size)
    (set! (bigv (- big-size 10000000)) 1.0)
    (test (bigv (- big-size 10000000)) 1.0)
    (reverse! bigv)
    (test (bigv (- 10000000 1)) 1.0)
    (fill! bigv 0.0); (- big-size 9000000))
    (test (bigv (- big-size 10000000)) 0.0)
    ))
(clear-and-gc)

(when (> total-memory (* (ash 1 33) 8))
  (let ((b (make-block (ash 1 33))))
    (set! (b (+ (ash 1 32) 10)) 1.0)
    (test (b (+ (ash 1 32) 10)) 1.0))
  (clear-and-gc))

(define (block-fft rl im n dir)
  (when rl
    (do ((i 0 (+ i 1))
	 (j 0))
	((= i n))
      (if (> j i)
	  (let ((tempr (block-ref rl j))
		(tempi (block-ref im j)))
	    (block-set! rl j (block-ref rl i))
	    (block-set! im j (block-ref im i))
	    (block-set! rl i tempr)
	    (block-set! im i tempi)))
      (let ((m (/ n 2)))
	(do () 
	    ((not (<= 2 m j)))
	  (set! j (- j m))
	  (set! m (/ m 2)))
	(set! j (+ j m))))
    (let ((ipow (floor (log n 2)))
	  (prev 1)
	  (tempr 0.0)
	  (tempi 0.0)
	  (wtemp 0.0))
      (do ((mmax 2 (* mmax 2))
	   (pow (/ n 2) (/ pow 2))
	   (theta (* pi dir) (* theta 0.5))
	   (lg 0 (+ lg 1)))
	  ((= lg ipow))
	(let ((wpr (cos theta))
	      (wpi (sin theta))
	      (wr 1.0)
	      (wi 0.0))
	  (do ((ii 0 (+ ii 1)))
	      ((= ii prev))
	    (do ((i ii (+ i mmax))
		 (j (+ ii prev) (+ j mmax))
		 (jj 0 (+ jj 1)))
		((>= jj pow))
	      (set! tempr (- (* wr (block-ref rl j)) (* wi (block-ref im j))))
	      (set! tempi (+ (* wr (block-ref im j)) (* wi (block-ref rl j))))
	      (block-set! rl j (- (block-ref rl i) tempr))
	      (block-set! rl i (+ (block-ref rl i) tempr))
	      (block-set! im j (- (block-ref im i) tempi))
	      (block-set! im i (+ (block-ref im i) tempi)))
	    (set! wtemp wr)
	    (set! wr (- (* wr wpr) (* wi wpi)))
	    (set! wi (+ (* wi wpr) (* wtemp wpi))))
	  (set! prev mmax))))
    rl))

(define (block-test)
  (let ((fvr (make-block fft-size))
	(fvi (make-block fft-size))
	(scl (/ (* 8.0 pi) fft-size)))
    (do ((i 0 (+ i 1))
	 (x 0.0 (+ x scl)))
	((= i fft-size))
      (block-set! fvr i (sin x)))
    (block-fft fvr fvi fft-size 1)
    (do ((mx 0.0)
	 (mxloc 0)
	 (vr 0.0)
	 (vi 0.0)
	 (pk 0.0)
	 (i 0 (+ i 1)))
	((= i fft-size) 
	 (format () "~A ~A~%" mxloc (/ (* 2 (sqrt mx)) fft-size)))
      (set! vr (block-ref fvr i))
      (set! vi (block-ref fvi i))
      (set! pk (+ (* vr vr) (* vi vi)))
      (when (> pk mx)
	(set! mx pk)
	(set! mxloc i)))
    (set! (fvr 4) 0.0)
    (set! (fvi 4) 0.0)
    (set! (fvr (- fft-size 4)) 0.0)
    (set! (fvi (- fft-size 4)) 0.0)
    (do ((mx 0.0)
	 (i 0 (+ i 1)))
	((= i fft-size)
	 (format () "noise: ~A~%" mx))
      (set! mx (max mx (abs (block-ref fvr i)) (abs (block-ref fvi i)))))
    (block-fft #f #f fft-size 1)))
(block-test)

(define (block-vector-fft rl im n dir)
  (when rl
    (let ((tempr 0.0)
	  (tempi 0.0)
	  (m 0)
	  (j 0)
	  (ipw (floor (log n 2)))
	  (prev 1)
	  (wtemp 0.0)
	  (wpr 0.0)
	  (wpi 0.0)
	  (wr 0.0)
	  (wi 0.0)
	  (mmax 2)
	  (pw (/ n 2))
	  (end 0)
	  (theta (* pi dir))
	  (tempbr #f)
	  (tempbi #f))
      (do ((i 0 (+ i 1)))
	  ((= i n))
	(when (> j i)
	  (set! tempbr (vector-ref rl j))
	  (set! tempbi (vector-ref im j))
	  (vector-set! rl j (vector-ref rl i))
	  (vector-set! im j (vector-ref im i))
	  (vector-set! rl i tempbr)
	  (vector-set! im i tempbi))
	(set! m (quotient n 2))
	(do () 
	    ((not (<= 2 m j)))
	  (set! j (- j m))
	  (set! m (quotient m 2)))
	(set! j (+ j m)))
      
      (do ((lg 0 (+ lg 1)))
	  ((= lg ipw))
	(set! wpr (cos theta))
	(set! wpi (sin theta))
	(set! wr 1.0)
	(set! wi 0.0)
	(do ((ii 0 (+ ii 1)))
	    ((= ii prev))
	  (set! j (+ ii prev))
	  (set! end (+ ii (* pw mmax)))
	  (do ((i ii (+ i mmax)))
	      ((= i end))
	    (set! tempr (- (* wr (block-ref (vector-ref rl j) 0)) (* wi (block-ref (vector-ref im j) 0))))
	    (set! tempi (+ (* wr (block-ref (vector-ref im j) 0)) (* wi (block-ref (vector-ref rl j) 0))))
	    (vector-set! rl j (block (- (block-ref (vector-ref rl i) 0) tempr)))
	    (vector-set! rl i (block (+ (block-ref (vector-ref rl i) 0) tempr)))
	    (vector-set! im j (block (- (block-ref (vector-ref im i) 0) tempi)))
	    (vector-set! im i (block (+ (block-ref (vector-ref im i) 0) tempi)))
	    (set! j (+ j mmax)))
	  (set! wtemp wr)
	  (set! wr (- (* wr wpr) (* wi wpi)))
	  (set! wi (+ (* wi wpr) (* wtemp wpi))))
	(set! prev mmax)
	(set! mmax (* mmax 2))
	(set! pw (quotient pw 2))
	(set! theta (* theta 0.5)))
      rl)))

(define (block-vector-checker fvr fvi)
  (when fvr
    (let ((vr 0.0)
	  (vi 0.0)
	  (pk 0.0)
	  (mx 0.0)
	  (mxloc 0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! vr (block-ref (vector-ref fvr i) 0))
	(set! vi (block-ref (vector-ref fvi i) 0))
	(set! pk (+ (* vr vr) (* vi vi)))
	(when (> pk mx)
	  (set! mx pk)
	  (set! mxloc i)))
      (format () "~A ~A~%" mxloc (/ (* 2 (sqrt mx)) fft-size))
      (format () "~A ~A~%" (fvi 4) (fvi (- fft-size 4))))
    (vector-set! fvr 4 (block 0.0))
    (vector-set! fvi 4 (block 0.0))
    (vector-set! fvr (- fft-size 4) (block 0.0))
    (vector-set! fvi (- fft-size 4) (block 0.0))
    (let ((mx 0.0))
      (do ((i 0 (+ i 1)))
	  ((= i fft-size))
	(set! mx (max mx (abs (block-ref (vector-ref fvr i) 0)) (abs (block-ref (vector-ref fvi i) 0)))))
      (format () "noise: ~A~%" mx))))

(define (block-vector-test)
  (let ((fvr (make-vector fft-size))
	(fvi (make-vector fft-size (block 0.0)))
	(scl (/ (* 8.0 pi) fft-size)))
    (do ((i 0 (+ i 1))
	 (x 0.0 (+ x scl)))
	((= i fft-size))
      (vector-set! fvr i (block (sin x))))
    (block-vector-fft fvr fvi fft-size 1)
    (block-vector-checker fvr fvi)
    (block-vector-fft #f #f fft-size 1)
    (block-vector-checker #f #f)))

(block-vector-test)
;(clear-and-gc)

;(clear-and-gc)
;(*s7* 'memory-usage)

(when (> (*s7* 'profile) 0)
  (show-profile 200))
(exit)

